Sebum secretion-blocking composition, and food or beverage containing same

ABSTRACT

An object is to provide a sebum secretion inhibiting composition and a food or drink product using the same. The present inventors have conducted extensive studies and consequently found that the sebum secretion is inhibited by orally ingesting a collagen peptide, which is hydrolyzed collagen, and provide an oral sebum secretion inhibiting composition comprising a collagen hydrolysate and a food or drink product containing the composition.

TECHNICAL FIELD

The present invention relates to a sebum secretion inhibitor (blocker) and a food or drink product and a composition using the same.

BACKGROUND ART

Sebum refers to lipid found in the human epidermis and is a mixture of a sebaceous secretion and the lipids derived from the epidermis, comprising triglycerides, fatty acids, wax esters, etc. In the human epidermis, 0.05 to 0.4 mg/cm² of sebum is considered to be always present. Sebum moisturizes and softens the stratum corneum and also prevents external harmful substances and bacteria from invading and prevents substances such as water from being released out of the body. The amount of sebum varies depending on sites of the body, age, sex, the season, temperature, fat intake, etc. Generally, in humans, the sebum amount is known to be greater in mens than in women, and is further abundant in fetuses and newborns, adolescents, and middle-aged to elderly men.

The sebum amount is an important factor to determine the skin type. The skin with a large amount of sebum is classified as oily skin, whereas the skin with a small amount of sebum is classified as not oily skin. When the oiliness increases, the skin becomes greasy, which gives an unpleasant feeling not only to the person him or herself but also to others. Also, when a sebum amount is excessive, sebum accumulates together with the stratum corneum inside the pores and may induce acnes.

Accordingly, there is a need for a sebum secretion inhibitor which inhibits the sebum secretion. Although there are a variety of topical sebum secretion inhibitors, inhibition by an external medicine often fails to provide a fundamental solution, and there is a need for an orally administrable sebum secretion inhibitor. The orally administrable sebum secretion inhibitor is desirably comprising ingredients derived from food products or natural products to assure safety. Thus, the present invention provides a sebum secretion inhibitor comprising a collagen degradation product.

The following products are reported as orally administrable compositions for fine skin comprising food products or ingredients derived from natural products. Patent Literature 1 discloses a composition for fine skin and a hair growth formula containing as an active ingredient a polar solvent extract of kiwi fruit seeds. However, Patent Literature 1 does not mention the relationship between the active ingredient and the sebum secretion inhibition. Further, Patent Literature 2 discloses a preventive and therapeutic composition for psilosis and seborrheic skin diseases containing the extract of kiwi fruit. However, Patent Literature 2 mainly describes inhibition of psilosis and does not discuss the sebum secretion inhibitory effect in detail.

The following compositions are reported as orally administrable compositions for fine skin associated with collagen or degradation products thereof. More specifically, Patent Literature 3 discloses a composition for fine skin containing ingredients such as collagen, hyaluronic acid, etc., obtained by digesting skin of birds, etc., with protease, or the like. Patent Literature 4 discloses an orally administrable composition for promoting fine skin comprising collagen, and the like, and other substances. Patent Literature 5 discloses a composition containing a collagen hydrolysate. However, none of these literatures suggests or discloses the relation between collagen or a collagen degradation product and the sebum secretion inhibition.

CITATION LIST Patent Literature

-   PTL 1: Japanese Patent Application Laid-Open No. 2007-99751 -   PTL 2: Japanese National Publication of International Patent     Application No. 2008-509905 -   PTL 3: Japanese Patent Application Laid-Open No. H11-308977 -   PTL 4: Japanese Patent Application Laid-Open No. 2007-320891 -   PTL 5: Japanese Patent Application Laid-Open No. 2008-194010

SUMMARY OF INVENTION Technical Problem

An object is to provide a sebum secretion inhibitor and a food or drink product and a composition using the same.

Solution to Problem

The present inventors have conducted extensive studies and consequently found that the sebum secretion is inhibited by orally ingesting a collagen peptide, which is hydrolyzed collagen, whereby the present invention has been accomplished. More specifically, the present invention provides an oral sebum secretion inhibiting composition comprising a collagen hydrolysate and a food or drink product containing the composition.

Advantageous Effects of Invention

Collagen accounts for high percentage in the total protein in vivo in the mammals and can be obtained at a low cost. Collagen is also a raw material for a gelatin and glue and has long been used as a food material. Collagen is further ingested in everyday life from a meat stew, etc., and thus its safety is widely acknowledged.

Furthermore, the sebum secretion inhibitor of the present invention provides the significant sebum secretion inhibitory effect in a short period of time.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a graph showing the sebum amounts of the subjects before, during and after the ingestion of the powder test meal.

DESCRIPTION OF EMBODIMENTS

Hereinafter, the orally administrable sebum secretion inhibiting composition comprising a collagen hydrolysate of the present invention and the food or drink product containing the composition are described.

Collagen is a main protein component constituting connective tissue in animals and is characterized by having a collagen triple helical structure. A total of not less than 30 types of collagen have been reported which are respectively termed Type I, Type II, and so on. Type I collagen is the primary component of the derma, ligaments, tendons, bones and the like; and Type II collagen is the primary component of articular cartilage. Further, Type IV collagen is mainly contained in a basal membrane, which is the undercoat of all epithelial tissues. Type I collagen is the most abundant collagen in the body.

In the sebum secretion inhibiting composition of the present invention, the collagen origin is not limited, and usable are those derived from mammals such as cow, pig, etc., birds such as chicken, ostrich, etc., fishes such as sharks, etc. Those derived from livestock such as cow, pig, chicken, etc., are easily obtainable in a large amount, hence particularly preferable. Further, the type of collagen is not limited and any type can be used, or a plurality of collagen types may be used in mixture.

In the present invention, the collagen hydrolysate (hereinafter sometimes referred to as collagen peptide) refers to a low molecular collagen obtained by hydrolyzing collagen with an acid, alkali or enzyme. For example, a collagen hydrolysate can be obtained by immersing skins and joints of animals such as pig, cow and chicken or scales and skins of fish in an acid or alkali solution to extract gelatin and treating the extracted gelatin with an enzyme or acid. The gelatin refers to the collagen pre-treated with an acid or alkali and then solubilized by heat hydrolysis.

The sebum secretion inhibiting composition of the present invention is for oral administration, but the dosage form is not limited and can be administered in the form of, for example, tablets, capsules, drinks, etc. Further, the sebum secretion inhibiting composition of the present invention may be administered by being contained in a food or drink product, and, in that case, the food or drink product in which the composition is contained are not limited, and examples include carbonated drinks, nutritional drinks, liquors, sweets, nutritional food products, frozen sweets, dairy products, meats, etc., and food products as a raw material to be used for these products.

The sebum secretion inhibiting composition of the present invention refers to a composition which inhibits sebum secreted from skin and the skin may be derived from any site of the body, but face, head, chest, back, armpits, genital area, etc., known as the areas where sebaceous glands are dense have abundant sebum secretion, hence are included as target sites.

EXAMPLE

Hereinafter, the present invention will be described in detail with reference to Examples. However, the present invention is not limited to the following Examples.

Example 1

For the collagen hydrolysate, a commercial “Collagen Peptide” (pig) having a molecular weight of 20000 or less was used. The collagen peptide used was obtained by immersing the pig skin in an acid or alkali solution to extract gelatin and further enzymolyzing the extracted gelatin. The collagen peptide is mainly derived from pig Type I collagen.

For the test meal containing the collagen peptide, a powder test meal comprising the composition shown in Table 1 was prepared. The powder test meal contains 10000 mg of collagen peptide and 100 mg of vitamin C per meal. Vitamin C is added because it is required to synthesize collagen in vivo.

TABLE 1 Ingredient name g/meal Collagen peptide 10.0 Excipient, sweetener 1.7 Flavor 0.2 Vitamin C 0.1 Total 12.0

Sixteen men in their twenties and thirties as the subjects orally ingested the powder test meal. The subjects took one meal of the powder test meal added to milk, juice, miso soup or the like at any convenient time once a day for 12 consecutive days. The sebum amount of the subjects was measured before, during and after the ingestion of the powder test meal. On the measurement day, the subjects washed their faces with warm water and a facial soap at 1 p.m., and 2 hours later, i.e., around 3 p.m., the measurement was carried out. The measurement was carried out, using an optical sebum measurement apparatus, Triplesense (Moritex Precision Corporation), by pressing the sensor part of the measurement apparatus against a spot about 3 cm below the eye on the face of the subject. The value (arbitrary unit a.u.) indicated as an oil content measurement value by the measurement apparatus was referred to as the sebum value. Before ingesting the powder test meal, 10 of the subjects had a sebum amount of 40 a.u. or more, whereas 6 subjects had a sebum amount of below 40 a.u. These groups were termed as the preingestion sebum amount≧the 40-group and the preingestion sebum amount<the 40-group, respectively. Table 2 shows the average value of the sebum amount of all subjects, the average value of the sebum amount of the preingestion sebum amount≧the 40-group and the average value of the sebum amount of the preingestion sebum amount<the 40-group before ingesting the powder test meal, 1 week and 2 weeks after the start of ingestion and 1 week after the completion of ingestion. Similarly, the results in the form of graph are shown in FIG. 1. In FIG. 1, Δ represents the average value for all subjects, ∘ represents the average value of the sebum amount of the preingestion sebum amount≧the 40-group, and □ represents the average value of the sebum amount of the preingestion sebum amount<the 40-group.

TABLE 2 Preingestion Week 1 Week 2 Postingestion (a.u.) (a.u.) (a.u.) Week 1 (a.u.) Overall average 42.6 35.4 36.3 41.3 Preingestion sebum 52.1 41.9 43.4 47.6 amount ≧ 40-group Preingestion sebum 26.9 24.7 24.4 31.8 amount < 40-group

After ingesting the powder test meal, all groups had reduced sebum amounts in comparison with before ingestion which revealed that the sebum secretion was inhibited owing to the ingestion of the powder test meal. In particular, the sebum secretion inhibitory effect was significant in the preingestion sebum amount≧the 40-group which leads to the presumption that people with oily skin inherently are most likely to benefit the effect. The effect already started showing within 1 week after the ingestion and the sebum amount increased again 1 week later from the ingestion which leads to the presumption that the effect can be attained in a comparatively short period of time.

The same test was also carried out for the group which did not ingest the powder test meal but the sebum inhibitory effect was not observed.

Examples of application of the deodorized collagen peptide obtained based on the above test results to drink or food products or compositions, are shown below.

Using the present product (collagen peptide) prepared by the methods described in Example 1, a drink, a powder, a tablet, a chewing gum, a candy, a tablet candy, a gummy jelly, a chocolate and a sorbet were produced with the following formula.

Example 2 Formula for a Drink

Collagen peptide 5.0 parts by weight High fructose corn syrup 8.0 parts by weight Sugar 4.0 parts by weight Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 3 Formula for a Drink

Collagen peptide 5.0 parts by weight Sucralose 0.005 parts by weight Stevioside 0.008 parts by weight Rebaudioside 0.008 parts by weight Acesulfame potassium 0.01 parts by weight Peach flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 4 Formula for a Drink

Collagen peptide 5.0 parts by weight Acidic lactic beverage 5.0 parts by weight High fructose corn syrup 10.0 parts by weight  Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 5 Formula for a Drink

Collagen peptide 5.0 parts by weight High fructose corn syrup 10.0 parts by weight  Honey 5.0 parts by weight Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 6 Formula for a Jelly Drink

Collagen peptide 5.0 parts by weight Sucralose 0.005 parts by weight Stevioside 0.008 parts by weight Rebaudioside 0.008 parts by weight Acesulfame potassium 0.01 parts by weight Peach flavor 0.5 parts by weight Vitamin C 0.5 parts by weight Gelation stabilizer 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 7 Formula for a Jelly Drink

Collagen peptide 5.0 parts by weight High fructose corn syrup 8.0 parts by weight Sugar 4.0 parts by weight Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight Gelation stabilizer 0.5 parts by weight After adjusting pH to 3.8 using an acidifier, the drink was prepared to be 100 parts by volume with purified water.

Example 8 Formula for a Coffee Drink

Collagen peptide 5.0 parts by weight Coffee extract 5.0 parts by weight Sugar 4.0 parts by weight Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 6.5 using sodium bicarbonate, the drink was prepared to be 100 parts by volume with purified water.

Example 9 Formula for a Green Tea Drink

Collagen peptide 5.0 parts by weight Green tea extract 10.0 parts by weight  Flavor 0.5 parts by weight Vitamin C 0.5 parts by weight After adjusting pH to 6.5 using sodium bicarbonate, the drink was prepared to be 100 parts by volume with purified water.

Example 10 Formula for a Powder

Collagen peptide 90.0 parts by weight  Lactose 5.0 parts by weight Dextrin 4.0 parts by weight Vitamin C 0.9 parts by weight

Example 11 Formula for a Tablet

Collagen peptide 5.0 parts by weight D-mannitol 40.0 parts by weight Lactose 40.0 parts by weight Crystalline cellulose 10.0 parts by weight Vitamin C 0.05 parts by weight Hydroxypropyl cellulose 5.0 parts by weight

Example 12 Formula for a Chewing Gum

Collagen peptide 5.0 parts by weight Gum base 20.0 parts by weight Sugar 55.0 parts by weight Glucose 10.5 parts by weight Starch syrup 9.0 parts by weight Vitamin C 0.05 parts by weight Flavor 0.5 parts by weight

Example 13 Formula for a Candy

Collagen peptide 5.0 parts by weight Sugar 50.0 parts by weight Starch syrup 29.5 parts by weight Flavor 0.5 parts by weight Vitamin C 0.05 parts by weight Water 15.0 parts by weight

Example 14 Formula for a Tablet Candy

Collagen peptide 5.0 parts by weight Sugar 73.5 parts by weight Glucose 17.0 parts by weight Sucrose esters of fatty acids 0.2 parts by weight Flavor 0.2 parts by weight Vitamin C 0.05 parts by weight Water 4.1 parts by weight

Example 15 Formula for a Gummy Jelly

Collagen peptide 5.0 parts by weight Gelatin 55.0 parts by weight Starch syrup 23.0 parts by weight Sugar 8.5 parts by weight Vegetable oil and fat 4.5 parts by weight Mannitol 3.0 parts by weight Vitamin C 0.05 parts by weight Lemon juice 1.0 parts by weight

Example 16 Formula for a Chocolate

Collagen peptide 5.0 parts by weight Powder sugar 36.8 parts by weight Cacao bitter 20.0 parts by weight Whole milk powder 20.0 parts by weight Cacao butter 17.0 parts by weight Mannitol 1.0 parts by weight Vitamin C 0.05 parts by weight Flavor 0.2 parts by weight

Example 17 Formula for a Sorbet

Collagen peptide 5.0 parts by weight Orange juice 25.0 parts by weight Sugar 23.0 parts by weight Egg white 9.0 parts by weight Vitamin C 0.05 parts by weight Water 38.0 parts by weight

Hereinabove, the present invention has been described with reference to Examples but can be carried out without being limited to these embodiments of the present invention.

This application claims the priority to the Japanese Patent Application No. 2009-297848, filed on Dec. 28, 2009, and the contents of which is hereby incorporated by reference as a part of the present application. 

1. An oral sebum secretion inhibiting composition comprising a collagen hydrolysate.
 2. A food or drink product containing an oral sebum secretion inhibiting composition according to claim
 1. 